Effects of non-pharmacological interventions for adults with subjective cognitive decline: a network meta-analysis and component network meta-analysis

Background Non-pharmacological interventions have a myriad of available intervention options and contain multiple components. Whether specific components of non-pharmacological interventions or combinations are superior to others remains unclear. The main aim of this study is to compare the effects of different combinations of non-pharmacological interventions and their specific components on health-related outcomes in adults with subjective cognitive decline. Methods PubMed, Embase, Cochrane, CINAHL, PsycINFO, CENTRAL, Web of Science, and China’s two largest databases, CNKI and Wanfang, were searched from inception to 22nd, January 2023. Randomized controlled trials using non-pharmacological interventions and reporting health outcomes in adults with subjective cognitive decline were included. Two independent reviewers screened studies, extracted data, and assessed risk of bias. Component network meta-analysis was conducted employing an additive component model for network meta-analysis. This study followed the PRISMA reporting guideline and the PRISMA checklist is presented in Additional file 2. Results A total of 39 trials with 2959 patients were included (range of mean ages, 58.79–77.41 years). Resistance exercise might be the optimal intervention for reducing memory complaints in adults with subjective cognitive decline; the surface under the cumulative ranking p score was 0.888, followed by balance exercise (p = 0.859), aerobic exercise (p = 0.832), and cognitive interventions (p = 0.618). Music therapy, cognitive training, transcranial direct current stimulation, mindfulness therapy, and balance exercises might be the most effective intervention components for improving global cognitive function (iSMD, 0.83; 95% CI, 0.36 to 1.29), language (iSMD, 0.31; 95% CI, 0.24 to 0.38), ability to perform activities of daily living (iSMD, 0.55; 95% CI, 0.21 to 0.89), physical health (iSMD, 3.29; 95% CI, 2.57 to 4.00), and anxiety relief (iSMD, 0.71; 95% CI, 0.26 to 1.16), respectively. Conclusions The form of physical activity performed appears to be more beneficial than cognitive interventions in reducing subjective memory complaints for adults with subjective cognitive decline, and this difference was reflected in resistance, aerobic, and balance exercises. Randomized clinical trials with high-quality and large-scale are warranted to validate the findings. Trial registration PROSPERO registry number. CRD42022355363. Supplementary Information The online version contains supplementary material available at 10.1186/s12916-024-03491-z.


Background
Subjective cognitive decline (SCD) refers to an individual's subjective belief that they have memory or cognitive decline compared to the previous normal state and without objective cognitive impairment [1][2][3].The updated Alzheimer's disease (AD) research framework of the National Institute on Aging and Alzheimer's Association recognized SCD within the cognitively unimpaired stage on the cognitive continuum [4].Studies have shown that the annual conversion rate of SCD to mild cognitive impairment (MCI) or AD is approximately 6.67% and that SCD progressively worsens to MCI or AD over nearly 15 years [5].The risk ratio of developing MCI in SCD is 4.5 and the risk ratio of developing AD is up to 6.5 compared to normal subjects [6].SCD has become a research hotspot not only because it is a potential early manifestation of AD but also due to that SCD is a broader behavioral phenotype above and beyond preclinical AD [7].SCD defines a group of people being concerned about their brain health, which reflected in an increasing number of individuals who seek medical advice because of SCD.Identifying effective interventions to address the health needs of elderly individuals with SCD and slow disease progression at an early stage is of utmost importance.
In the absence of specific drugs to treat cognitiverelated disorders, non-pharmacological interventions (NPIs) offer an opportunity to delay age-related cognitive decline.Unlike medications that must be prescribed by a physician, NPIs, once standardized, can be implemented by a variety of healthcare professionals with relevant training and expertise (e.g., master's-level clinicians, occupational therapists, and clinical psychologists).More importantly, the adults with SCD were thought to have preserved current cognitive function and greater cognitive reserve, which increased the likelihood that they would be able to benefit from NPIs before significant cognitive difficulties arose [8].
To our knowledge, there have been some meta-analyses evaluating NPIs for SCD.However, these studies have some areas that need improvement.Firstly, existing systematic reviews tend to focus on objective cognitive abilities as the primary outcome measure [9][10][11], which is valuable.However, the benefits derived from NPIs may be multi-dimensional.Further examination of differences in the impact of NPIs on different health dimensions of adults with SCD could provide more nuanced insights into the effectiveness of interventions, such as physical health, quality of life, and anxiety.Secondly, most metaanalyses used traditional meta-analysis, which allowed for comparative analyses of the effects of the implementation of the interventions, but it was limited to direct comparisons (within the study) of the evidence provided.Notably, in 2021, Roheger et al. [9] conducted the first network meta-analysis (NMA) to analyze the impact of NPIs on adults with SCD.This analysis allowed for direct comparisons of different interventions by considering both direct and indirect evidence (between-study with shared comparable interventions) in the same model.The results suggest that education programs were most effective for improving memory and cognition.However, the outcome measures in their study were also limited to memory and cognition.Thirdly, the heterogeneity of the study population may affect the generalization of the findings to adults with SCD.For example, a systematic review and meta-analysis by Metternich et al. noted that memory training was the only effective intervention in objective memory [12].However, the study included a population that involved healthy volunteers who may not necessarily have SCD, which somewhat reduces the informativeness of the findings for the effectiveness of interventions for adults with SCD.
What needs to be emphasized further is that in clinical practice and research literature, NPIs often consist of different combinations of several therapeutic components and some combinations of these components (i.e., some specific forms of NPIs) may have differential effects on interventions for adults with SCD.For example, a web-based in-home multidomain lifestyle intervention may include cognitive training, exercise training, health education, etc.In addition, depending on the intervention's delivery, setting, and materials, it may also include internetwork, home, and computer components.Consideration of these various components when evaluating the effectiveness and impact of non-pharmacological complex interventions can provide a more comprehensive understanding of the intervention's potential benefits and provide valuable insights for designing and implementing effective healthcare strategies.
Component network meta-analysis (cNMA) is a newly developed meta-analysis methodology and an extension of the standard NMA that can be used to isolate the treatment effects of different components of a composite intervention [13,14].Using cNMA for separating nonpharmacological complex interventions when comparing the treatment effects of NPIs can effectively avoid the influence of heterogeneity of intervention delivery, frequency, setting, and materials across studies on the results and increase the precision of effect estimates between interventions.However, cNMA has not been used to identify non-pharmacological complex interventions in SCD, and the specific combinations of NPI types and the most effective components of complex interventions remain unclear.
Therefore, in this study, standard NMA and cNMA will be applied for the same aimed data.Among them, the standard NMA is mainly used to analyze the effectiveness of different NPIs and their combinations in adults with SCD.It will incorporate more indicators of health outcomes in the analysis to complement the gaps in existing studies.cNMA will be used to determine the incremental effects of the various components of a nonpharmacological complex intervention and to identify the most effective combination of interventions.This will help minimize the complexity of the treatments being offered and may provide an improvement in terms of time, money, and effort for both patients and clinicians.

Search strategy
We systematically searched PubMed, Embase, Cochrane, CINAHL, PsycINFO, CENTRAL, Web of Science, and the two largest databases of CNKI and Wanfang in China.The search period was from the date of database building to January 22, 2023.The search strategy is reported in eAppendix 1 in Additional file 1.We contacted investigators and relevant experimenters by mail to obtain detailed literature information for incomplete reports and information on unpublished experiments.We also conducted searches in reviewed reference lists from included studies and relevant systematic reviews, and performed manual and non-database internet searches to identify gray literature and additional papers that fulfilled the criteria.

Study selection
We included randomized clinical trials (RCTs) conducted in adults with SCD aged 50 years or older and published in English or Chinese.The definition of the included population is based on the diagnostic criteria of subjective cognitive decline initiative (SCD-I), where SCD is defined as self-reported cognitive complaints, without objective evidence of deficits on cognitive testing and unaccounted for by medical or psychiatric causes [1].The intervention delivered needed to fall within the domains of NPIs.We excluded (1) studies that included cognitively impaired participants (MCI, AD), psychiatric disease, neurological disease, or substance abuse among the SCD participants and (2) letters, commentaries, method papers, abstracts, and unpublished data.Two assessors independently screened the titles and abstracts and critically reviewed the full texts of the selected studies to assess eligibility.
In this study, subjective memory complaint was defined as the primary outcome because it is not only the most commonly reported area of impairment in adults with SCD but also the core deficit in MCI and AD [15][16][17].Secondary outcomes included global cognitive function, language function, executive function, visuospatial ability, attention, and noncognitive functions, including the ability to perform activities of daily living, quality of life, anxiety, depression, and physical health.

Data extraction and quality assessment
A uniform data extraction form was created that covered the characteristics of the study, demographic details, specific measures of intervention and control, instruments for each outcome measure, and values.For the classification of NPIs, the original table included 11 interventions (cognitive intervention, exercise, aerobic exercise, balance exercise, resistance exercise, psychotherapy, dietary therapy, occupational therapy, usual care, active placebo, and waitlist).However, no study on dietary therapy was included, so this categorization was excluded.Ultimately, the intervention extraction table contained 10 interventions, and the definition of each intervention can be found in Table 1.Data extraction from the included literature was performed independently by two authors (ZRD and XRL).If discrepancies arose, we went through a process of double-checking, group discussions, and consulting the corresponding author (XWL) to make a final decision.The risk of bias for each study was assessed using the Cochrane Evaluation Handbook 5.1.0[18].Confidence in Network Meta-Analysis (CINeMA) was used to evaluate confidence in the results from NMA [19].

Statistical analysis
Pairwise meta-analysis and standard NMA were performed to compare the comparative effectiveness of different treatments or combinations of NPIs through a frequentist approach based on electrical networks and graph theory [24].Component network meta-analysis was conducted employing an additive component model for network meta-analysis.We evaluated possible heterogeneity of treatment effects and the robustness of our findings through subgroup analyses.In these analyses, we employed the median duration of treatment as covariates for the primary outcome, ensuring a comprehensive examination of treatment effects across various subgroups.The leave-one-out method and exclusion of high risk of bias studies were employed to conduct sensitivity analysis.Minimally contextualized framework was applied to rank interventions for each intervention outcome, with waitlist as the reference intervention and 95% intervals excluding zero values as the decision threshold [25].We utilized both the forest plot and the surface under the cumulative ranking (SUCRA) score to compute the relative ranking probabilities for all NPIs concerning research outcomes [26].Transitivity was assessed by investigating the distribution of potential effect modifiers, including age, gender, and treatment duration.We used the node-splitting approach to estimate whether an inconsistency existed between the direct and indirect evidence.The Q statistic was used to assess the fit of the models.A comparison adjusted funnel plot was used to assess small study effects and publication bias.Data analysis was performed using the netmeta package in R (version 4.3.0).

Study selection and characteristics
A total of 12,845 publications were searched.After removal of duplicates and screening based on title and abstract, 161 references were retrieved for a full inspection.Finally, 39 RCTs were identified.The selection process and list of the included studies can be seen in eAppendix 2 and eAppendix 3 in Additional file 1, respectively.The 39 studies were published between 1999 and 2022, covering 16 countries, and a total of 2959 adults with SCD were included in the quantitative study.Participants were mostly community-based and predominantly Table 1 List of included interventions, definitions, and their possible components ael aerobic exercise and low intensity, aem aerobic exercise and moderate intensity, aev aerobic exercise and vigorous intensity, bat balance training, cbt cognitive behavior therapy, cr cognitive rehabilitation, cs cognitive stimulation, ct cognitive training, hitt high-intensity interval training, hlkp healthy living knowledge promotion, mft mindfulness therapy, mtt music therapy, ret resistance training, tdcs transcranial direct current stimulation, hf high frequency, lf low frequency, mf medium frequency, app application, cp computer, em educational material, vr virtual reality, fg face-to-face and groups, fo face-to-face and one-on-one, ig internetwork and groups, io internetwork and one-on-one, gy gym, hm home, hp hospital, iom institute of medicine, lcf long-term care facilities, wl, waitlist Symbols: " + " means "and"; " ± " means "with or without"

Exercise (balance group)
Static and dynamic exercises that are designed to improve an individual's ability to withstand challenges from postural sway or destabilizing stimuli caused by self-motion, the environment, or other objects [21] bat Exercise (resistance group) A specialized form of muscle strengthening activity designed to enhance muscular strength, local muscular endurance, and muscular power [22] ret + (± fo ± fg ± io ± ig) + (± lf ± mf ± hf ) + (± app ± cp ± em ± vr) + (± gym ± hm ± hp ± iom ± lcf )

Exercise
Physically demanding activities.When the inclusion of literature does not specify the type of exercise or is difficult to categorize as aerobic group, balance group, and resistance group will be referred to as exercise

Occupational therapy
Case management or activities to enhance functional independence, delivered by an occupational therapist, which in this case primarily includes transcranial direct current stimulation [23] tdcs + fo + (± lf ± mf ± hf ) + em + (± gym ± hm ± hp ± iom ± lcf )

Psychotherapy
Apply psychological theories, methods, and techniques to change or influence the patient's negative cognitive emotions

Wl
Participants are aware that they will receive an active treatment after a waiting phase or be a blank control group wl female.The duration of the intervention ranged from 10 days to 26 weeks.These results are described in eAppendix 4 in Additional file 1.The transitivity assessment showed that exercise (aerobic group) + exercise (resistance group) had a higher treatment duration than the other intervention subgroups, but otherwise the other moderators appeared to be evenly distributed across the subgroups (eAppendix 10 in Additional file 1).

Risk of bias
The concordance of the two assessors' risk of bias was 82.48% in 39 RCTs, and then a third assessor (XWL) was included.Finally, 1 study did not use blinding of participants, personnel, and outcome assessment, 5 studies did not use blinding of participants and personnel, and 1 study did not use blinding for outcome assessment, and these were rated as having a high risk of bias in the corresponding entries.The specific evaluation results can be found in eAppendix 5 in Additional file 1.

Pairwise meta-analysis Primary outcome: subjective memory complaints
We compared the effectiveness of NPIs with usual care, active placebo, and waitlist groups on subjective memory complaints.The results showed that NPIs might be more effective in reducing subjective memory complaints in adults with SCD than usual care (SMD, − 0.29; 95% CI, − 0.48 to − 0.09) and waitlist (SMD, − 0.16; 95% CI, − 0.30 to − 0.01).A comparison of forest plots can be seen in eAppendix 6 in Additional file 1.

Secondary outcome
Due to the limitation of the number of active placebo interventions contained in the included studies, the secondary outcome could not be analyzed in a pairwise meta-analysis with active placebo.Therefore, in this section, the comparative reference group for pairwise meta-analysis included the usual care and waitlist group.Among them, the data on quality of life, language function, executive function, visuospatial ability, and depression were insufficient to make comparisons with the usual care and activities of daily living and quality of life data were insufficient to make comparisons with the waitlist.

Secondary outcome
NMA was also performed for all secondary outcomes, and outcomes of global cognitive function, language function, executive function, visuospatial ability, attention, anxiety, and depression with good reticulation were specifically analyzed (Fig. 1).For improving global cognitive functioning, cognitive intervention + psychotherapy might be more effective than usual care (SMD, 0.90; 95% CI, 0.16 to 1.65).For improving executive function, cognitive intervention, cognitive intervention + psychotherapy, cognitive intervention + psychotherapy + exercise, and psychotherapy + exercise might be more effective compared to the usual care, and the SMDs ranged from 0.58 to 1.21.Psychotherapy + exercise might be the most effective measure for improving executive function when compared to waitlist (p = 0.942).The results of the network meta-analysis for each of the secondary outcomes are provided in eAppendix 8 in Additional file 1, and the p score treatment rankings are provided in eAppendix 7 in Additional file 1.

Inconsistency test and certainty of evidence
For all the outcome metrics that form mesh evidence, we did not detect significant inconsistencies, indicating good internal consistency within the network (eAppendix 11 in Additional file 1).The certainty of the evidence was low overall.Concerning the primary and secondary outcomes, we judged the confidence of the evidence to be very low for 34.72% versus waitlist, with 64.89% being low (eAppendix 12 in Additional file 1).Comparisonadjusted funnel plot and Egger's test did not reveal large asymmetries, suggesting that publication bias and smallstudy effects may have had a small impact on this study (eAppendix 12 in Additional file 1).No significant heterogeneity was found for the sensitivity analyses that were performed (eAppendix 13 in Additional file 1).Subgroup analyses grouped by median treatment duration showed that the longer treatment duration group (≥ 8 weeks) was more effective in improving subjective memory complaints in adults with SCD than the shorter treatment duration group (< 8 weeks).The results of the subgroup analysis are summarized in eAppendix 14 in Additional file 1.

Component network meta-analysis
According to current research, this study disaggregated the NPIs into 30 components by intervention, delivery, setting, material, and frequency.Specifically, this includes 14 intervention components, 4 delivery and material components each, 5 settings, and 3 frequency components.The components and their definitions are shown in Table 3.The possible components of each intervention are shown in Table 1.The fit of the cNMA model   1 definitions

High-intensity interval training hitt
A sport that involves repeated bouts of intense exercise (e.g., ≥ 80% of peak or maximum heart rate) separated by intervals of recovery or rest [27] Resistance training ret Same as Table 1 definitions [22] Healthy living knowledge promotion hlkp Promote understanding about how behavior impact health, and require individuals to have the capacity to acquire, understand, and operationalize the content of health education in order to improve their health status [28] Transcranial direct current stimulation tdcs One particular technique, transcranial direct current stimulation, involves the application of low amplitude (e.g., 1-2 mA), sustained current over a short duration (e.g., 20 min) via strategically positioned electrodes on the scalp [29] Cognitive behavior therapy cbt A therapy in which cognitive restructuring was one of the core components.The aim is evaluating, challenging, and modifying a patient's dysfunctional beliefs [30] Mindfulness therapy mft The awareness that emerges through paying attention on purpose, in the present moment, and nonjudgmentally to the unfolding of experience moment by moment [31] Music therapy mtt The professional use of music and its elements as an intervention in medical, educational, and everyday environment with individuals, groups, families, or communities, who seek to optimize their quality of life and improve their physical, social, communicative, emotional, intellectual, and spiritual health and well-being [32] Delivery Face-to-face and one-on-one fo Face-to-face and one-on-one between intervention implementer and study participant when implementing intervention

Discussion
To our knowledge, this systematic review and network meta-analysis is the most comprehensive synthesis of data on NPIs for adults with SCD, and it is also the first study using cNMA to explore the incremental effects of the components of a non-pharmacological complex intervention.By considering both direct and indirect comparative evidence, this study found that resistance, aerobic, and balance exercises were all superior to cognitive interventions in reducing subjective memory complaints in adults with SCD.In other words, for adults with SCD, the form of physical activity performed appears to be more beneficial in reducing subjective memory complaints.Among the forms of physical activity interventions, resistance exercise might be most effective in reducing subjective memory complaints in adults with SCD.This effect may be related to the fact that resistance exercise can increase blood flow to memory-related brain regions [33], produce neuroprotective factors [34], and achieve greater neuronal survival and synaptogenesis [35].These findings suggest that subjective memory complaints can be reduced by identifying adults with SCD in community and primary care settings, adopting tailored exercise programs and appropriately adding a resistance exercise portion.
Furthermore, it has been hypothesized that the combination of two or more NPIs could potentially decelerate cognitive decline at a more substantial rate compared to the use of a single NPI alone [36].However, we hold the perspective that this concept is not absolute, but rather reflects a dialectical viewpoint.For instance, in our study, the utilization of cognitive interventions alone yielded a significant improvement in subjective memory complaints among adults with SCD, whereas a combination of cognitive intervention and psychotherapy did not produce a significant effect.The notion that multiple combined NPIs do not consistently outperform single intervention is also evident in the outcomes related to executive function in the findings of Metternich et al. [12].Accordingly, the implementation of NPIs should not be exclusively centered on quantity and complexity.Instead, it should emphasize the interplay of synergistic and antagonistic effects among various interventions.
NPIs encompass a multitude of components, even in their simplest forms.Regarding the subjective memory outcome measure, the most effective effect sizes were observed for the components io (internet and one-onone), mf (medium frequency), ael (aerobic exercise; low intensity), cs (cognitive stimulation), and em (educational material).This implies that future NPIs for SCD could incorporate these components more extensively.It is important to note, however, that these effect sizes did not reach statistical significance, so the conclusions should be treated with caution.Similarly, in the context of global cognitive function, the components mft (mindfulness therapy), mtt (music therapy), app (application), and em (educational material) exhibited more favorable effect sizes, and these effect sizes were statistically significant.Consequently, when using NPIs to improve global cognitive functioning in adults with SCD, we suggest that future trials incorporate these components more broadly and incorporate longer follow-up periods to gain insight into the crucial role of duration in both the effectiveness and sustainability of interventions.In addition, we did not extract components for treatment duration and not included them in the cNMA.This is because 33 (84.6%) of the 39 studies in the literature included in this study had treatment durations centered on 1 to 3 months, with only 5 (12.8%) being greater than 3 months and 1 (2.6%) being less than 1 month.However, the transitivity analysis results suggested that the intervention duration was higher in the exercise (aerobic group) + exercise (resistance group) group than in the other intervention subgroups, which may influence the effect size of indirect evidence to be biased.On the other hand, the results of the subgroup analyses based on the median treatment duration show that appropriately increasing the duration of NPIs may be more conducive to the improvement of subjective memory complaint in adults with SCD, which also suggests differences in the impact of heterogeneity in treatment duration on health outcomes in adults with SCD.Therefore, we suggest that future studies use cNMA to explore further the differences in the efficacy of NPIs by treatment duration, such as short-term, medium-term, and long-term interventions, when sufficient data supports them.It will help to improve the statistical power of indirect comparisons and determine the incremental effects of different treatment durations.
It is worth emphasizing that we utilized the Q statistic to assess the fit of the comparative standard NMA and cNMA models, as they were used on the same dataset.In fact, with the widespread use of traditional NMA models, several organizations, such as the WHO, have endorsed NMA as a powerful tool in clinical decision-making because it has developed greater maturity and robustness.The results of the goodness-of-fit test of the NMA model in this study also increase the confidence in promoting and applying NPIs in adults with SCD.However, while NMA can improve the precision of estimates most of the time by combining not only direct but also indirect evidence, it cannot further assess the impact of components in non-pharmacological complex interventions.At this point, as an extension of the standard NMA, the cNMA can provide information on component effects by informing all studies and the results with intervention effects that show a monotonic pattern between effect and components.Therefore, NMA and cNMA should not be considered competitors but complementary.Although the inclusion of more classifications in the cNMA analysis may have affected the fit of their models, we still believe this article provides valuable insights for discerning the most effective components among NPIs for SCD.This, in turn, contributes to future research focusing on intervention components that are deemed effective.As far as we know, contemporary studies are adopting efficient research designs, such as multiphase optimization strategies to assess intervention components [37].
This study also has some other limitations.Firstly, the extensive number of studies included in the analysis and the intricate statistical analyses required a substantial amount of time to complete.Consequently, studies published in recent months could not be included in time.Secondly, the majority of the included studies exhibited small sample sizes, which compromises the reliability of the estimated results.Thirdly, despite our efforts to establish standardized training and evaluation criteria, the definition and identification of intervention components inevitably retained a degree of subjectivity.Fourthly, due to a scarcity of direct evidence, a considerable portion of our conclusions rely on indirect comparisons.Consequently, these outcomes should be approached with caution.Lastly, the limited availability of follow-up data hindered our capacity to conduct comprehensive analyses regarding the evolving effects of NPIs and their components on various outcomes over time.Consequently, our assessment of long-term outcomes remains incomplete.

Conclusions
Our study demonstrates that different forms of physical exercise, including resistance, aerobic, and balance exercises, might outperform cognitive interventions in improving subjective memory complaints in adults with SCD.For delaying cognitive decline in adults with SCD, combined interventions of two or more NPIs are not always superior to one non-pharmacological intervention alone.The combination of multiple NPIs should focus more on synergistic and antagonistic effects among various interventions.We hope that these findings and the preliminary recommendations provided can inform clinical interventions and encourage the field to further explore optimal component combination strategies to maximize the efficacy of non-pharmacological interventions and influence or alter the trajectory of abnormal cognitive decline.

Fig. 1
Fig. 1 Geometry of networks for comparison of interventions.★ Primary outcomes; *secondary outcomes; wl, waitlist.The size of the circles denotes the contribution of participants in each intervention and the thickness of the lines between circles represents the contribution of studies comparing the two interventions

Table 3
List of included components and their definitions VO 2 max maximal oxygen consumption, HRR Heart rate reserve, HRmax Max heart rate

Table 4
Estimates of the incremental standardized mean difference of each component when added to the waitlist iSMD incremental standardized mean differences, CI Confidential intervals, ael aerobic exercise and low intensity, aem aerobic exercise and moderate intensity, aev aerobic exercise and vigorous intensity, bat balance training, cbt cognitive behavior therapy, cr cognitive rehabilitation, cs cognitive stimulation, ct cognitive training, hitt high-intensity interval training, hlkp healthy living knowledge promotion, mft mindfulness therapy, mtt music therapy, ret resistance training, tdcs transcranial direct current stimulation, hf high frequency, lf low frequency, mf medium frequency, app application, cp computer, em educational material, vr virtual reality, fg face-to-face and groups, fo face-to-face and one-on-one, ig internetwork and groups, io internetwork and one-on-one, gy gym, hm home, hp hospital, iom institute of medicine, lcf long-term care facilities.= 224.5,df = 8; for the corresponding NMA model using the same dataset, the fit is represented by Q = 20.1, df = 19.